Multicellular 3D bioprinted human gallbladder carcinoma forin vitromimicry of tumor microenvironment and intratumoral heterogeneity.

IF 8.2 2区 医学 Q1 ENGINEERING, BIOMEDICAL
Yukai Jin, Jiangang Zhang, Jiali Xing, Yiran Li, Huiyu Yang, Liujian Ouyang, Zhiyuan Fang, Lejia Sun, Bao Jin, Pengyu Huang, Huayu Yang, Shunda Du, Xinting Sang, Yilei Mao
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Abstract

Gallbladder carcinoma (GBC) is a malignant hepatobiliary cancer characterized by an intricate tumor microenvironments (TME) and heterogeneity. The traditional GBC 2D culture models cannot faithfully recapitulate the characteristics of the TME. Three-dimensional (3D) bioprinting enables the establishment of high-throughput and high-fidelity multicellular GBC models. In this study, we designed a concentric cylindrical tetra-culture model to reconstitute the spatial distribution of cells in tumor tissue, with the inner portion containing GBC cells, and the outer ring containing a mixture of endothelial cells, fibroblasts, and macrophages. We confirmed the survival, proliferation, biomarker expression and gene expression profiles of GBC 3D tetra-culture models. Hematoxylin-eosin (HE) and immunofluorescence staining verified the morphology and robust expression of GBC/endothelial/fibroblast/macrophage biomarkers in GBC 3D tetra-culture models. Single-cell RNA sequencing revealed two distinct subtypes of GBC cells within the model, glandular epithelial and squamous epithelial cells, suggesting the mimicry of intratumoral heterogeneity. Comparative transcriptome profile analysis among variousin vitromodels revealed that cellular interactions and the TME in 3D tetra-culture models reshaped the biological processes of tumor cells to a more aggressive phenotype. GBC 3D tetra-culture models restored the characteristics of the TME as well as intratumoral heterogeneity. Therefore, this model is expected to have future applications in tumor biology research and antitumor drug development.

多细胞三维生物打印人胆囊癌,用于模拟肿瘤微环境和瘤内异质性。
胆囊癌(GBC)是一种恶性肝胆癌,具有复杂的肿瘤微环境(TME)和异质性。传统的 GBC 二维培养模型无法忠实再现肿瘤微环境的特征。三维(3D)生物打印技术可以建立高通量、高保真的多细胞 GBC 模型。在这项研究中,我们设计了一个同心圆柱形四细胞培养模型来重建肿瘤组织中细胞的空间分布,内层部分包含 GBC 细胞,外圈包含内皮细胞、成纤维细胞和巨噬细胞的混合物。我们证实了 GBC 三维四维培养模型的存活、增殖、生物标志物表达和基因表达谱。血红素-伊红(HE)和免疫荧光染色验证了GBC三维四细胞培养模型中GBC/内皮细胞/成纤维细胞/巨噬细胞生物标志物的形态和强健表达。单细胞RNA测序显示,模型中的GBC细胞有两种不同的亚型,即腺上皮细胞和鳞状上皮细胞,这表明瘤内异质性的模拟。各种体外模型的转录组比较分析表明,三维四维培养模型中的细胞相互作用和TME重塑了肿瘤细胞的生物学过程,使其具有更具侵袭性的表型。GBC三维四细胞培养模型恢复了TME的特征以及瘤内异质性。因此,该模型有望在未来的肿瘤生物学研究和抗肿瘤药物开发中得到应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Biofabrication
Biofabrication ENGINEERING, BIOMEDICAL-MATERIALS SCIENCE, BIOMATERIALS
CiteScore
17.40
自引率
3.30%
发文量
118
审稿时长
2 months
期刊介绍: Biofabrication is dedicated to advancing cutting-edge research on the utilization of cells, proteins, biological materials, and biomaterials as fundamental components for the construction of biological systems and/or therapeutic products. Additionally, it proudly serves as the official journal of the International Society for Biofabrication (ISBF).
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